The question is really vague. 1 mole simply means a bunch of particles : 6.22 X10 to the 23rd power. ! mole of N has that many particles. So does one mole of C, Ca and so on....a better question would be how many moles in a given mass or number of particles
Saying "one mole of nitrogen" is ambiguous because nitrogen can exist as a diatomic molecule (N2) in its elemental form. So, it is more accurate to specify whether it is one mole of nitrogen atoms (N) or one mole of nitrogen molecules (N2) to avoid confusion.
No, they do NOT contain the same number of particles (either molecules N2 or atoms C): there molecular or atomic mass is different.Look at this:10g N2 / 28 (g/mole N2) x 6.022x1023 (molecules N2/mole N2) = 2.15 x1023 molecules N210g C / 12 (g/mole C) x 6.022x1023 (atoms C/mole C) = 5.02 x1023 atoms C
2 x 0.60 = 1.2 the reaction is N2 + 3H2 -> 2NH3 (1 mole of nitrogen N2 give 2 moles of NH3)
The confusion might arise because the term "mole" is a unit of measurement for the amount of substance, while "nitrogen" refers to a specific element. So saying "1 mole of nitrogen" could be ambiguous without specifying whether it refers to 1 mole of nitrogen atoms or 1 mole of nitrogen molecules (N2).
In one mole of any substance, there are 6.02 x 1023 of them (Avogadro's number). In six moles, there would be six times this number, and since we are talking about N2, there are two atoms for every molecule...therefore there would be 6 x 2 and 6.02 x 1023 atoms, or 12 x (6.02 x 1023) individual atoms.The total number of molecules in one mole of nitrogen is 6.02 x 1023.
The answer is 4,366.102 molecules.
Saying "one mole of nitrogen" is ambiguous because nitrogen can exist as a diatomic molecule (N2) in its elemental form. So, it is more accurate to specify whether it is one mole of nitrogen atoms (N) or one mole of nitrogen molecules (N2) to avoid confusion.
1 mole N2 = 28.0134g 1 mole N2 = 6.022 x 1023 molecules N2 28.0134g N2 = 6.022 x 1023 molecules N2 (4.00 x 1023 molecules N2) x (28.0134g/6.022 x 1023 molecules) = 18.6g N2
Only one mole
2 (atoms N / molecule N2) * 8.5*10+24 (molecules N2) / 6.02*10+23 (atoms N / mole N-atoms) = 28 mole N-atoms
No, they do NOT contain the same number of particles (either molecules N2 or atoms C): there molecular or atomic mass is different.Look at this:10g N2 / 28 (g/mole N2) x 6.022x1023 (molecules N2/mole N2) = 2.15 x1023 molecules N210g C / 12 (g/mole C) x 6.022x1023 (atoms C/mole C) = 5.02 x1023 atoms C
The answer is 2,107749515.1025 molecules.
1 mole N2 = 22.4L 3.2L N2 x 1mol N2/22.4L = 0.14 mole N2
2 x 0.60 = 1.2 the reaction is N2 + 3H2 -> 2NH3 (1 mole of nitrogen N2 give 2 moles of NH3)
The confusion might arise because the term "mole" is a unit of measurement for the amount of substance, while "nitrogen" refers to a specific element. So saying "1 mole of nitrogen" could be ambiguous without specifying whether it refers to 1 mole of nitrogen atoms or 1 mole of nitrogen molecules (N2).
There are 6.023x10^23 molecules in one mole of a compound. So now, you have to find how many moles of each compound you have. CO's molecular weight is (12+16) = 28 g/mol N2's molecular weight is (14+14) = 28 g/mol So you find the moles of each. moles of N2 = 20g/ 28g/mol = .714 moles moles of CO = 16g / 28 g/mol = .571 moles So, N2 has (.714 *6.023x10^23) has 4.3 x10^23 molecules and CO (.571 *6.023x10^23) has 3.4x10^23 molecules. So, 20g of N2 has more molecules than 16g of CO
In one mole of any substance, there are 6.02 x 1023 of them (Avogadro's number). In six moles, there would be six times this number, and since we are talking about N2, there are two atoms for every molecule...therefore there would be 6 x 2 and 6.02 x 1023 atoms, or 12 x (6.02 x 1023) individual atoms.The total number of molecules in one mole of nitrogen is 6.02 x 1023.